Dielectrophoretic characterization and selection of non-spherical flagellate algae in parallel channels with right-angle bipolar electrodes [0.03%]
基于直角双极电极平行微通道的非球形鞭藻介质电泳表征与分选
Xiaoming Chen,Shun Liu,Mo Shen et al.
Xiaoming Chen et al.
Non-spherical flagellate algae play an increasingly significant role in handling problematic issues as versatile biological micro/nanorobots and resources of valuable bioproducts. However, the commensalism of flagellate algae with distinct ...
Piezoelectric and microfluidic tuning of an infrared cavity for vibrational polariton studies [0.03%]
用于振动极子研究的红外腔的压电和微流体调谐
Wei Wang,Jaime de la Fuente Diez,Nicolas Delsuc et al.
Wei Wang et al.
We developed a microfluidic system for vibrational polariton studies, which consists of two microfluidic chips: one for solution mixing and another for tuning an infrared cavity made of a pair of gold mirrors and a PDMS (polydimethylsiloxan...
High-throughput viscoelastic characterization of cells in hyperbolic microchannels [0.03%]
用于细胞粘弹性特征分析的双曲微流控芯片及其高通量测量系统
Felix Reichel,Ruchi Goswami,Salvatore Girardo et al.
Felix Reichel et al.
Extensive research has demonstrated the potential of cell viscoelastic properties as intrinsic indicators of cell state, functionality, and disease. For this, several microfluidic techniques have been developed to measure cell viscoelastici...
Evaluating thrombosis risk and patient-specific treatment strategy using an atherothrombosis-on-chip model [0.03%]
利用芯片上的动脉粥样硬化血栓模型评估血栓风险和特定患者的治疗策略
Fahima Akther,Hedieh Fallahi,Jun Zhang et al.
Fahima Akther et al.
Platelets play an essential role in thrombotic processes. Recent studies suggest a direct link between increased plasma glucose, lipids, and inflammatory cytokines with platelet activation and aggregation, resulting in an increased risk of ...
Development of a self-contained microfluidic chip and an internet-of-things-based point-of-care device for automated identification of respiratory viruses [0.03%]
一种自含式微流控芯片和基于物联网的呼吸道病毒自动化鉴定床旁设备的发展
Huynh Quoc Nguyen,Van Dan Nguyen,Vu Minh Phan et al.
Huynh Quoc Nguyen et al.
The COVID-19 pandemic greatly impacted the in vitro diagnostic market, leading to the development of new technologies such as point-of-care testing (POCT), multiplex testing, and digital health platforms. In this study, we present a self-co...
A microfluidic model to study the effects of arrhythmic flows on endothelial cells [0.03%]
一种微流体模型研究不规则流动对内皮细胞的影响
Austin Lai,Adam Hawke,Mokhaled Mohammed et al.
Austin Lai et al.
Atrial fibrillation (AF) is the most common type of cardiac arrhythmia and an important contributor to morbidity and mortality. Endothelial dysfunction has been postulated to be an important contributing factor in cardiovascular events in p...
Direct laser writing-enabled 3D printing strategies for microfluidic applications [0.03%]
用于微流体应用的直写激光三维打印策略
Olivia M Young,Xin Xu,Sunandita Sarker et al.
Olivia M Young et al.
Over the past decade, additive manufacturing-or "three-dimensional (3D) printing"-has attracted increasing attention in the Lab on a Chip community as a pathway to achieve sophisticated system architectures that are difficult or infeasible ...
Spatially controlled diffusion range of tumor-associated angiogenic factors to develop a tumor model using a microfluidic resistive circuit [0.03%]
可控扩散范围的肿瘤相关血管生成因子的空间微流控电阻电路肿瘤模型开发研究
Yu-Hsiang Hsu,Wen-Chih Yang,Yi-Ting Chen et al.
Yu-Hsiang Hsu et al.
Developing a tumor model with vessels has been a challenge in microfluidics. This difficulty is because cancer cells can overgrow in a co-culture system. The up-regulation of anti-angiogenic factors during the initial tumor development can ...
Brachytherapy on-a-chip: a clinically-relevant approach for radiotherapy testing in 3d biology [0.03%]
芯片化近距离放疗:一种与临床相关的三维生物放射治疗测试方法
Rodin Chermat,Elena Refet-Mollof,Yuji Kamio et al.
Rodin Chermat et al.
We describe the first microfluidic device for in vitro testing of brachytherapy (BT), with applications in translational cancer research. Our PDMS-made BT-on-chip system allows highly precise manual insertion of clinical BT seeds, reliable ...
A self-assembly and cellular migration based fabrication of high-density 3D tubular constructs of barrier forming membranes [0.03%]
基于自组装和细胞迁移的高密度三维管状屏障形成膜构建方法
Seyedaydin Jalali,Ponnambalam Ravi Selvaganapathy
Seyedaydin Jalali
Three-dimensional (3D) in vitro models, superior in simulating physiological conditions compared to 2D models, offer intricate cell-cell and cell-ECM interactions with diverse signaling cues like fluid shear stress and growth factor gradien...